Add to ORKGWe develop a theoretical framework for description of diffusive radiative transport in disordered photonic crystals. We define an inhomogeneous equilibrium distribution of light intensity inside photonic crystals and derive the static limit of diffusion equation. © 2007 Optical Society of America
Diffusion is a statistical description of random walk of a classical particle, and the diffusion con...
Photonic crystals are extremely sensitive to structural disorder even to the point of completely los...
This is a book chapter for a World Scientific Reference Set edited by Prof. Vadim Markel, a former m...
We develop a theoretical framework for description of diffusive radiative transport in disordered ph...
The difficulty of description of the radiative transfer in disordered photonic crystals arises from ...
The difficulty of description of the radiative transfer in disordered photonic crystals arises from ...
We present a detailed, microscopic transport theory for light in strongly scattering disordered syst...
Two different transport regimes of light are observed in the same medium and are explained by the sc...
We present a unified derivation of the photon diffusion coefficient for both steady-state and time-d...
The conductance of photons in two-dimensional disordered photonic crystals is calculated using an ex...
We control diffusion of light inside a disordered waveguide by modifying the waveguide geometry. Our...
An analytic theory of the density of states in one-dimensional disordered photonic crystals is propo...
In this article we introduce a mathematical model to describe light propagation in a mono-dimension...
The ray dynamics in a photonic crystal was investigated. Chaos occurs for perfectly periodic crystal...
Two different transport regimes of light are observed in reflection from the same disordered photoni...
Diffusion is a statistical description of random walk of a classical particle, and the diffusion con...
Photonic crystals are extremely sensitive to structural disorder even to the point of completely los...
This is a book chapter for a World Scientific Reference Set edited by Prof. Vadim Markel, a former m...
We develop a theoretical framework for description of diffusive radiative transport in disordered ph...
The difficulty of description of the radiative transfer in disordered photonic crystals arises from ...
The difficulty of description of the radiative transfer in disordered photonic crystals arises from ...
We present a detailed, microscopic transport theory for light in strongly scattering disordered syst...
Two different transport regimes of light are observed in the same medium and are explained by the sc...
We present a unified derivation of the photon diffusion coefficient for both steady-state and time-d...
The conductance of photons in two-dimensional disordered photonic crystals is calculated using an ex...
We control diffusion of light inside a disordered waveguide by modifying the waveguide geometry. Our...
An analytic theory of the density of states in one-dimensional disordered photonic crystals is propo...
In this article we introduce a mathematical model to describe light propagation in a mono-dimension...
The ray dynamics in a photonic crystal was investigated. Chaos occurs for perfectly periodic crystal...
Two different transport regimes of light are observed in reflection from the same disordered photoni...
Diffusion is a statistical description of random walk of a classical particle, and the diffusion con...
Photonic crystals are extremely sensitive to structural disorder even to the point of completely los...
This is a book chapter for a World Scientific Reference Set edited by Prof. Vadim Markel, a former m...